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Article Abstract
Relaxor ferroelectrics exhibit giant potentials in capacitive energy storage, however, the scales of polar nanoregions determine the critical field values where the polarization saturation occurs. In this work, a mesoscopic structure engineered ergodic relaxor state is realized by adjusting submicron-grain scaled chemical homogenity, exhibiting polymorphic polar nanoregions of various scales in different grains. This produces a relatively continuous polarization switching with increasing the applied electric field from diverse grains, thus resulting in a linear-like polarization response feature. As a result, both a giant energy density (W) ≈15.4 J cm and a field-insensitive ultrahigh efficiency (η) ≈93.2% are simultaneously achieved at 78 kV mm in (Ba, Ca)(Ti, Zr)O-(BiNa)SnO lead-free ceramics. Moreover, both the mesoscopic structure heterogeneity and complex high internal stresses in ultrafine grains decrease the temperature sensitivity of the nanodomain structural features. Together with the suppressed high-temperature defect motion from high ceramic density and submicron grain size, a record-high temperature stability with W = 10.4±5% J cm and η = 96±3% is obtained at 65 kV mm and 0-250 °C, demonstrating great application potential of the studied ceramic in high-temperature energy storage capacitors. The proposed strategy in this work greatly expands the design mentality for next-generation high-performance energy-storage dielectrics.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12279175 | PMC |
| http://dx.doi.org/10.1002/advs.202502916 | DOI Listing |
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